Apoptosis is essential for the development of multicellular organisms as well as the immunesystem of vertebrates and its deregulation may be involved in various diseases. Majormediators of apoptosis are so-called death receptors whose signaling pathways are tightlyregulated. One important regulator in this context is the cellular FLICE-inhibitory protein (c-FLIP), which is expressed in three isoforms on the protein level, namely c-FLIPlong, c-FLIPshortand c-FLIPR. So far, previous research has mostly concentrated on c-FLIPlong, which serves adual function in apoptosis regulation and might exert both anti- and pro-apoptotic activities.The role of the two short isoforms, however, is poorly characterized so far. Since the functionof the c-FLIPR isoform in vivo is virtually unknown, we have generated a transgenic mousethat will enable us to determine the role of this novel c-FLIP isoform in apoptosis andimmunity. Moreover, the expression of c-FLIPR via the vav promoter allows us for the firsttime to investigate the functions of c-FLIP in hematopoietic cells other than T cells, includingdendritic cells and B cells. Recent studies have surprisingly revealed the involvementapoptosis regulators in several non-apoptotic functions, such as cell proliferation anddifferentiation. The aim of this proposal is to clarify whether or not c-FLIP serves nonapoptoticfunctions in addition to the inhibition of apoptosis. If so, we will investigate whichsignaling pathways mediate such non-apoptotic functions. In this context, we will analyzewhether the three splice variants of c-FLIP differentially affect non-apoptotic signaling usingisoform-specific RNA interference (RNAi). Our transgenic mouse model will allow us odetermine the role of c-FLIP in proliferation in vivo. Taken together, the proposedexperiments will lead to a better understanding of mechanisms leading to autoimmunity andcancer.

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